What question did this study set out to answer?

The aim is to understand the oscillations of gas-filled bubbles near a solid boundary when excited by an acoustic field.

June 5, 2026Open Access

Dynamics of wall attached bubbles excited by an acoustic field

Key Points

The aim is to understand the oscillations of gas-filled bubbles near a solid boundary when excited by an acoustic field.
Simulated bubble dynamics using a finite volume method with a volume of fluid method in an axially symmetric setting.
Bubbles excited at a frequency of 20 kHz and an amplitude of 0.9 bar with sizes ranging from 30 to 140 μm.
Observed formation of thin, fast jets during bubble collapse, dependent on bubble size.
Smaller or larger bubbles are split off at liquid self-impact, depending on initial size.
Bubbles may lift off from the solid surface during the second collapse.

Abstract

We investigate oscillations of gas filled bubbles at a solid boundary. The bubbles are excited by an acoustic field with frequency 20 kHz and an amplitude of 0.9 bar. Bubble sizes range from 30 to 140 μm in initial radius. A finite volume method with a volume of fluid method is used to simulate the dynamics in an axially symmetric setting. We investigate the first two bubble oscillations. The computed bubble dynamics is rich. We observe the repeated formation of thin, fast jets after liquid self-impact at the axis during the collapse phases. Depending on the bubble size, smaller or larger bubbles are split off at liquid self impact. The bubble may lift off from the solid during the second collapse. Pairs of fast jets can be formed. Jets directed away from the solid are observed, in particular during the second rebound.

Bookmark

View Full Paper

Bookmark

View Full Paper

Dynamics of wall attached bubbles excited by an acoustic field

Key Points

Abstract

Cite This Study